#include <test/jtx.h>

#include <xrpld/app/ledger/Ledger.h>
#include <xrpld/app/misc/FeeVote.h>
#include <xrpld/app/tx/apply.h>

#include <xrpl/basics/BasicConfig.h>
#include <xrpl/ledger/View.h>
#include <xrpl/protocol/Feature.h>
#include <xrpl/protocol/Indexes.h>
#include <xrpl/protocol/PublicKey.h>
#include <xrpl/protocol/STTx.h>
#include <xrpl/protocol/SecretKey.h>

namespace ripple {
namespace test {

struct FeeSettingsFields
{
    std::optional<std::uint64_t> baseFee = std::nullopt;
    std::optional<std::uint32_t> reserveBase = std::nullopt;
    std::optional<std::uint32_t> reserveIncrement = std::nullopt;
    std::optional<std::uint32_t> referenceFeeUnits = std::nullopt;
    std::optional<XRPAmount> baseFeeDrops = std::nullopt;
    std::optional<XRPAmount> reserveBaseDrops = std::nullopt;
    std::optional<XRPAmount> reserveIncrementDrops = std::nullopt;
};

STTx
createFeeTx(
    Rules const& rules,
    std::uint32_t seq,
    FeeSettingsFields const& fields)
{
    auto fill = [&](auto& obj) {
        obj.setAccountID(sfAccount, AccountID());
        obj.setFieldU32(sfLedgerSequence, seq);

        if (rules.enabled(featureXRPFees))
        {
            // New XRPFees format - all three fields are REQUIRED
            obj.setFieldAmount(
                sfBaseFeeDrops,
                fields.baseFeeDrops ? *fields.baseFeeDrops : XRPAmount{0});
            obj.setFieldAmount(
                sfReserveBaseDrops,
                fields.reserveBaseDrops ? *fields.reserveBaseDrops
                                        : XRPAmount{0});
            obj.setFieldAmount(
                sfReserveIncrementDrops,
                fields.reserveIncrementDrops ? *fields.reserveIncrementDrops
                                             : XRPAmount{0});
        }
        else
        {
            // Legacy format - all four fields are REQUIRED
            obj.setFieldU64(sfBaseFee, fields.baseFee ? *fields.baseFee : 0);
            obj.setFieldU32(
                sfReserveBase, fields.reserveBase ? *fields.reserveBase : 0);
            obj.setFieldU32(
                sfReserveIncrement,
                fields.reserveIncrement ? *fields.reserveIncrement : 0);
            obj.setFieldU32(
                sfReferenceFeeUnits,
                fields.referenceFeeUnits ? *fields.referenceFeeUnits : 0);
        }
    };
    return STTx(ttFEE, fill);
}

STTx
createInvalidFeeTx(
    Rules const& rules,
    std::uint32_t seq,
    bool missingRequiredFields = true,
    bool wrongFeatureFields = false,
    std::uint32_t uniqueValue = 42)
{
    auto fill = [&](auto& obj) {
        obj.setAccountID(sfAccount, AccountID());
        obj.setFieldU32(sfLedgerSequence, seq);

        if (wrongFeatureFields)
        {
            if (rules.enabled(featureXRPFees))
            {
                obj.setFieldU64(sfBaseFee, 10 + uniqueValue);
                obj.setFieldU32(sfReserveBase, 200000);
                obj.setFieldU32(sfReserveIncrement, 50000);
                obj.setFieldU32(sfReferenceFeeUnits, 10);
            }
            else
            {
                obj.setFieldAmount(sfBaseFeeDrops, XRPAmount{10 + uniqueValue});
                obj.setFieldAmount(sfReserveBaseDrops, XRPAmount{200000});
                obj.setFieldAmount(sfReserveIncrementDrops, XRPAmount{50000});
            }
        }
        else if (!missingRequiredFields)
        {
            // Create valid transaction (all required fields present)
            if (rules.enabled(featureXRPFees))
            {
                obj.setFieldAmount(sfBaseFeeDrops, XRPAmount{10 + uniqueValue});
                obj.setFieldAmount(sfReserveBaseDrops, XRPAmount{200000});
                obj.setFieldAmount(sfReserveIncrementDrops, XRPAmount{50000});
            }
            else
            {
                obj.setFieldU64(sfBaseFee, 10 + uniqueValue);
                obj.setFieldU32(sfReserveBase, 200000);
                obj.setFieldU32(sfReserveIncrement, 50000);
                obj.setFieldU32(sfReferenceFeeUnits, 10);
            }
        }
        // If missingRequiredFields is true, we don't add the required fields
        // (default behavior)
    };
    return STTx(ttFEE, fill);
}

bool
applyFeeAndTestResult(jtx::Env& env, OpenView& view, STTx const& tx)
{
    auto const res =
        apply(env.app(), view, tx, ApplyFlags::tapNONE, env.journal);
    return res.ter == tesSUCCESS;
}

bool
verifyFeeObject(
    std::shared_ptr<Ledger const> const& ledger,
    Rules const& rules,
    FeeSettingsFields const& expected)
{
    auto const feeObject = ledger->read(keylet::fees());
    if (!feeObject)
        return false;

    auto checkEquality = [&](auto const& field, auto const& expected) {
        if (!feeObject->isFieldPresent(field))
            return false;
        return feeObject->at(field) == expected;
    };

    if (rules.enabled(featureXRPFees))
    {
        if (feeObject->isFieldPresent(sfBaseFee) ||
            feeObject->isFieldPresent(sfReserveBase) ||
            feeObject->isFieldPresent(sfReserveIncrement) ||
            feeObject->isFieldPresent(sfReferenceFeeUnits))
            return false;

        if (!checkEquality(
                sfBaseFeeDrops, expected.baseFeeDrops.value_or(XRPAmount{0})))
            return false;
        if (!checkEquality(
                sfReserveBaseDrops,
                expected.reserveBaseDrops.value_or(XRPAmount{0})))
            return false;
        if (!checkEquality(
                sfReserveIncrementDrops,
                expected.reserveIncrementDrops.value_or(XRPAmount{0})))
            return false;
    }
    else
    {
        if (feeObject->isFieldPresent(sfBaseFeeDrops) ||
            feeObject->isFieldPresent(sfReserveBaseDrops) ||
            feeObject->isFieldPresent(sfReserveIncrementDrops))
            return false;

        // Read sfBaseFee as a hex string and compare to expected.baseFee
        if (!checkEquality(sfBaseFee, expected.baseFee))
            return false;
        if (!checkEquality(sfReserveBase, expected.reserveBase))
            return false;
        if (!checkEquality(sfReserveIncrement, expected.reserveIncrement))
            return false;
        if (!checkEquality(sfReferenceFeeUnits, expected.referenceFeeUnits))
            return false;
    }

    return true;
}

std::vector<STTx>
getTxs(std::shared_ptr<SHAMap> const& txSet)
{
    std::vector<STTx> txs;
    for (auto i = txSet->begin(); i != txSet->end(); ++i)
    {
        auto const data = i->slice();
        auto serialIter = SerialIter(data);
        txs.push_back(STTx(serialIter));
    }
    return txs;
};

class FeeVote_test : public beast::unit_test::suite
{
    void
    testSetup()
    {
        FeeSetup const defaultSetup;
        {
            // defaults
            Section config;
            auto setup = setup_FeeVote(config);
            BEAST_EXPECT(setup.reference_fee == defaultSetup.reference_fee);
            BEAST_EXPECT(setup.account_reserve == defaultSetup.account_reserve);
            BEAST_EXPECT(setup.owner_reserve == defaultSetup.owner_reserve);
        }
        {
            Section config;
            config.append(
                {"reference_fee = 50",
                 "account_reserve = 1234567",
                 "owner_reserve = 1234"});
            auto setup = setup_FeeVote(config);
            BEAST_EXPECT(setup.reference_fee == 50);
            BEAST_EXPECT(setup.account_reserve == 1234567);
            BEAST_EXPECT(setup.owner_reserve == 1234);
        }
        {
            Section config;
            config.append(
                {"reference_fee = blah",
                 "account_reserve = yada",
                 "owner_reserve = foo"});
            // Illegal values are ignored, and the defaults left unchanged
            auto setup = setup_FeeVote(config);
            BEAST_EXPECT(setup.reference_fee == defaultSetup.reference_fee);
            BEAST_EXPECT(setup.account_reserve == defaultSetup.account_reserve);
            BEAST_EXPECT(setup.owner_reserve == defaultSetup.owner_reserve);
        }
        {
            Section config;
            config.append(
                {"reference_fee = -50",
                 "account_reserve = -1234567",
                 "owner_reserve = -1234"});
            // Illegal values are ignored, and the defaults left unchanged
            auto setup = setup_FeeVote(config);
            BEAST_EXPECT(setup.reference_fee == defaultSetup.reference_fee);
            BEAST_EXPECT(
                setup.account_reserve == static_cast<std::uint32_t>(-1234567));
            BEAST_EXPECT(
                setup.owner_reserve == static_cast<std::uint32_t>(-1234));
        }
        {
            auto const big64 = std::to_string(
                static_cast<std::uint64_t>(
                    std::numeric_limits<XRPAmount::value_type>::max()) +
                1);
            Section config;
            config.append(
                {"reference_fee = " + big64,
                 "account_reserve = " + big64,
                 "owner_reserve = " + big64});
            // Illegal values are ignored, and the defaults left unchanged
            auto setup = setup_FeeVote(config);
            BEAST_EXPECT(setup.reference_fee == defaultSetup.reference_fee);
            BEAST_EXPECT(setup.account_reserve == defaultSetup.account_reserve);
            BEAST_EXPECT(setup.owner_reserve == defaultSetup.owner_reserve);
        }
    }

    void
    testBasic()
    {
        testcase("Basic SetFee transaction");

        // Test with XRPFees disabled (legacy format)
        {
            jtx::Env env(*this, jtx::testable_amendments() - featureXRPFees);
            auto ledger = std::make_shared<Ledger>(
                create_genesis,
                env.app().config(),
                std::vector<uint256>{},
                env.app().getNodeFamily());

            // Create the next ledger to apply transaction to
            ledger = std::make_shared<Ledger>(
                *ledger, env.app().timeKeeper().closeTime());

            // Test successful fee transaction with legacy fields

            FeeSettingsFields fields{
                .baseFee = 10,
                .reserveBase = 200000,
                .reserveIncrement = 50000,
                .referenceFeeUnits = 10};
            auto feeTx = createFeeTx(ledger->rules(), ledger->seq(), fields);

            OpenView accum(ledger.get());
            BEAST_EXPECT(applyFeeAndTestResult(env, accum, feeTx));
            accum.apply(*ledger);

            // Verify fee object was created/updated correctly
            BEAST_EXPECT(verifyFeeObject(ledger, ledger->rules(), fields));
        }

        // Test with XRPFees enabled (new format)
        {
            jtx::Env env(*this, jtx::testable_amendments() | featureXRPFees);
            auto ledger = std::make_shared<Ledger>(
                create_genesis,
                env.app().config(),
                std::vector<uint256>{},
                env.app().getNodeFamily());

            // Create the next ledger to apply transaction to
            ledger = std::make_shared<Ledger>(
                *ledger, env.app().timeKeeper().closeTime());

            FeeSettingsFields fields{
                .baseFeeDrops = XRPAmount{10},
                .reserveBaseDrops = XRPAmount{200000},
                .reserveIncrementDrops = XRPAmount{50000}};
            // Test successful fee transaction with new fields
            auto feeTx = createFeeTx(ledger->rules(), ledger->seq(), fields);

            OpenView accum(ledger.get());
            BEAST_EXPECT(applyFeeAndTestResult(env, accum, feeTx));
            accum.apply(*ledger);

            // Verify fee object was created/updated correctly
            BEAST_EXPECT(verifyFeeObject(ledger, ledger->rules(), fields));
        }
    }

    void
    testTransactionValidation()
    {
        testcase("Fee Transaction Validation");

        {
            jtx::Env env(*this, jtx::testable_amendments() - featureXRPFees);
            auto ledger = std::make_shared<Ledger>(
                create_genesis,
                env.app().config(),
                std::vector<uint256>{},
                env.app().getNodeFamily());

            // Create the next ledger to apply transaction to
            ledger = std::make_shared<Ledger>(
                *ledger, env.app().timeKeeper().closeTime());

            // Test transaction with missing required legacy fields
            auto invalidTx = createInvalidFeeTx(
                ledger->rules(), ledger->seq(), true, false, 1);
            OpenView accum(ledger.get());
            BEAST_EXPECT(!applyFeeAndTestResult(env, accum, invalidTx));

            // Test transaction with new format fields when XRPFees is disabled
            auto disallowedTx = createInvalidFeeTx(
                ledger->rules(), ledger->seq(), false, true, 2);
            BEAST_EXPECT(!applyFeeAndTestResult(env, accum, disallowedTx));
        }

        {
            jtx::Env env(*this, jtx::testable_amendments() | featureXRPFees);
            auto ledger = std::make_shared<Ledger>(
                create_genesis,
                env.app().config(),
                std::vector<uint256>{},
                env.app().getNodeFamily());

            // Create the next ledger to apply transaction to
            ledger = std::make_shared<Ledger>(
                *ledger, env.app().timeKeeper().closeTime());

            // Test transaction with missing required new fields
            auto invalidTx = createInvalidFeeTx(
                ledger->rules(), ledger->seq(), true, false, 3);
            OpenView accum(ledger.get());
            BEAST_EXPECT(!applyFeeAndTestResult(env, accum, invalidTx));

            // Test transaction with legacy fields when XRPFees is enabled
            auto disallowedTx = createInvalidFeeTx(
                ledger->rules(), ledger->seq(), false, true, 4);
            BEAST_EXPECT(!applyFeeAndTestResult(env, accum, disallowedTx));
        }
    }

    void
    testPseudoTransactionProperties()
    {
        testcase("Pseudo Transaction Properties");

        jtx::Env env(*this, jtx::testable_amendments());
        auto ledger = std::make_shared<Ledger>(
            create_genesis,
            env.app().config(),
            std::vector<uint256>{},
            env.app().getNodeFamily());

        // Create the next ledger to apply transaction to
        ledger = std::make_shared<Ledger>(
            *ledger, env.app().timeKeeper().closeTime());

        auto feeTx = createFeeTx(
            ledger->rules(),
            ledger->seq(),
            {.baseFeeDrops = XRPAmount{10},
             .reserveBaseDrops = XRPAmount{200000},
             .reserveIncrementDrops = XRPAmount{50000}});

        // Verify pseudo-transaction properties
        BEAST_EXPECT(feeTx.getAccountID(sfAccount) == AccountID());
        BEAST_EXPECT(feeTx.getFieldAmount(sfFee) == XRPAmount{0});
        BEAST_EXPECT(feeTx.getSigningPubKey().empty());
        BEAST_EXPECT(feeTx.getSignature().empty());
        BEAST_EXPECT(!feeTx.isFieldPresent(sfSigners));
        BEAST_EXPECT(feeTx.getFieldU32(sfSequence) == 0);
        BEAST_EXPECT(!feeTx.isFieldPresent(sfPreviousTxnID));

        // But can be applied to a closed ledger
        {
            OpenView closedAccum(ledger.get());
            BEAST_EXPECT(applyFeeAndTestResult(env, closedAccum, feeTx));
        }
    }

    void
    testMultipleFeeUpdates()
    {
        testcase("Multiple Fee Updates");

        jtx::Env env(*this, jtx::testable_amendments() | featureXRPFees);
        auto ledger = std::make_shared<Ledger>(
            create_genesis,
            env.app().config(),
            std::vector<uint256>{},
            env.app().getNodeFamily());

        ledger = std::make_shared<Ledger>(
            *ledger, env.app().timeKeeper().closeTime());

        FeeSettingsFields fields1{
            .baseFeeDrops = XRPAmount{10},
            .reserveBaseDrops = XRPAmount{200000},
            .reserveIncrementDrops = XRPAmount{50000}};
        auto feeTx1 = createFeeTx(ledger->rules(), ledger->seq(), fields1);

        {
            OpenView accum(ledger.get());
            BEAST_EXPECT(applyFeeAndTestResult(env, accum, feeTx1));
            accum.apply(*ledger);
        }

        BEAST_EXPECT(verifyFeeObject(ledger, ledger->rules(), fields1));

        // Apply second fee transaction with different values
        ledger = std::make_shared<Ledger>(
            *ledger, env.app().timeKeeper().closeTime());

        FeeSettingsFields fields2{
            .baseFeeDrops = XRPAmount{20},
            .reserveBaseDrops = XRPAmount{300000},
            .reserveIncrementDrops = XRPAmount{75000}};
        auto feeTx2 = createFeeTx(ledger->rules(), ledger->seq(), fields2);

        {
            OpenView accum(ledger.get());
            BEAST_EXPECT(applyFeeAndTestResult(env, accum, feeTx2));
            accum.apply(*ledger);
        }

        // Verify second update overwrote the first
        BEAST_EXPECT(verifyFeeObject(ledger, ledger->rules(), fields2));
    }

    void
    testWrongLedgerSequence()
    {
        testcase("Wrong Ledger Sequence");

        jtx::Env env(*this, jtx::testable_amendments() | featureXRPFees);
        auto ledger = std::make_shared<Ledger>(
            create_genesis,
            env.app().config(),
            std::vector<uint256>{},
            env.app().getNodeFamily());

        ledger = std::make_shared<Ledger>(
            *ledger, env.app().timeKeeper().closeTime());

        // Test transaction with wrong ledger sequence
        auto feeTx = createFeeTx(
            ledger->rules(),
            ledger->seq() + 5,  // Wrong sequence (should be ledger->seq())
            {.baseFeeDrops = XRPAmount{10},
             .reserveBaseDrops = XRPAmount{200000},
             .reserveIncrementDrops = XRPAmount{50000}});

        OpenView accum(ledger.get());

        // The transaction should still succeed as long as other fields are
        // valid
        // The ledger sequence field is only used for informational purposes
        BEAST_EXPECT(applyFeeAndTestResult(env, accum, feeTx));
    }

    void
    testPartialFieldUpdates()
    {
        testcase("Partial Field Updates");

        jtx::Env env(*this, jtx::testable_amendments() | featureXRPFees);
        auto ledger = std::make_shared<Ledger>(
            create_genesis,
            env.app().config(),
            std::vector<uint256>{},
            env.app().getNodeFamily());

        ledger = std::make_shared<Ledger>(
            *ledger, env.app().timeKeeper().closeTime());

        FeeSettingsFields fields1{
            .baseFeeDrops = XRPAmount{10},
            .reserveBaseDrops = XRPAmount{200000},
            .reserveIncrementDrops = XRPAmount{50000}};
        auto feeTx1 = createFeeTx(ledger->rules(), ledger->seq(), fields1);

        {
            OpenView accum(ledger.get());
            BEAST_EXPECT(applyFeeAndTestResult(env, accum, feeTx1));
            accum.apply(*ledger);
        }

        BEAST_EXPECT(verifyFeeObject(ledger, ledger->rules(), fields1));

        ledger = std::make_shared<Ledger>(
            *ledger, env.app().timeKeeper().closeTime());

        // Apply partial update (only some fields)
        FeeSettingsFields fields2{
            .baseFeeDrops = XRPAmount{20},
            .reserveBaseDrops = XRPAmount{200000}};
        auto feeTx2 = createFeeTx(ledger->rules(), ledger->seq(), fields2);

        {
            OpenView accum(ledger.get());
            BEAST_EXPECT(applyFeeAndTestResult(env, accum, feeTx2));
            accum.apply(*ledger);
        }

        // Verify the partial update worked
        BEAST_EXPECT(verifyFeeObject(ledger, ledger->rules(), fields2));
    }

    void
    testSingleInvalidTransaction()
    {
        testcase("Single Invalid Transaction");

        jtx::Env env(*this, jtx::testable_amendments() | featureXRPFees);
        auto ledger = std::make_shared<Ledger>(
            create_genesis,
            env.app().config(),
            std::vector<uint256>{},
            env.app().getNodeFamily());

        ledger = std::make_shared<Ledger>(
            *ledger, env.app().timeKeeper().closeTime());

        // Test invalid transaction with non-zero account - this should fail
        // validation
        auto invalidTx = STTx(ttFEE, [&](auto& obj) {
            obj.setAccountID(
                sfAccount,
                AccountID(1));  // Should be zero (this makes it invalid)
            obj.setFieldU32(sfLedgerSequence, ledger->seq());
            obj.setFieldAmount(sfBaseFeeDrops, XRPAmount{10});
            obj.setFieldAmount(sfReserveBaseDrops, XRPAmount{200000});
            obj.setFieldAmount(sfReserveIncrementDrops, XRPAmount{50000});
        });

        OpenView accum(ledger.get());
        BEAST_EXPECT(!applyFeeAndTestResult(env, accum, invalidTx));
    }

    void
    testDoValidation()
    {
        testcase("doValidation");

        using namespace jtx;

        FeeSetup setup;
        setup.reference_fee = 42;
        setup.account_reserve = 1234567;
        setup.owner_reserve = 7654321;

        // Test with XRPFees enabled
        {
            Env env(*this, testable_amendments() | featureXRPFees);
            auto feeVote = make_FeeVote(setup, env.app().journal("FeeVote"));

            auto ledger = std::make_shared<Ledger>(
                create_genesis,
                env.app().config(),
                std::vector<uint256>{},
                env.app().getNodeFamily());

            auto sec = randomSecretKey();
            auto pub = derivePublicKey(KeyType::secp256k1, sec);

            auto val = std::make_shared<STValidation>(
                env.app().timeKeeper().now(),
                pub,
                sec,
                calcNodeID(pub),
                [](STValidation& v) {
                    v.setFieldU32(sfLedgerSequence, 12345);
                });

            // Use the current ledger's fees as the "current" fees for
            // doValidation
            auto const& currentFees = ledger->fees();

            feeVote->doValidation(currentFees, ledger->rules(), *val);

            BEAST_EXPECT(val->isFieldPresent(sfBaseFeeDrops));
            BEAST_EXPECT(
                val->getFieldAmount(sfBaseFeeDrops) ==
                XRPAmount(setup.reference_fee));
        }

        // Test with XRPFees disabled (legacy format)
        {
            Env env(*this, testable_amendments() - featureXRPFees);
            auto feeVote = make_FeeVote(setup, env.app().journal("FeeVote"));

            auto ledger = std::make_shared<Ledger>(
                create_genesis,
                env.app().config(),
                std::vector<uint256>{},
                env.app().getNodeFamily());

            auto sec = randomSecretKey();
            auto pub = derivePublicKey(KeyType::secp256k1, sec);

            auto val = std::make_shared<STValidation>(
                env.app().timeKeeper().now(),
                pub,
                sec,
                calcNodeID(pub),
                [](STValidation& v) {
                    v.setFieldU32(sfLedgerSequence, 12345);
                });

            auto const& currentFees = ledger->fees();

            feeVote->doValidation(currentFees, ledger->rules(), *val);

            // In legacy mode, should vote using legacy fields
            BEAST_EXPECT(val->isFieldPresent(sfBaseFee));
            BEAST_EXPECT(val->getFieldU64(sfBaseFee) == setup.reference_fee);
        }
    }

    void
    testDoVoting()
    {
        testcase("doVoting");

        using namespace jtx;

        FeeSetup setup;
        setup.reference_fee = 42;
        setup.account_reserve = 1234567;
        setup.owner_reserve = 7654321;

        Env env(*this, testable_amendments() | featureXRPFees);

        // establish what the current fees are
        BEAST_EXPECT(
            env.current()->fees().base == XRPAmount{UNIT_TEST_REFERENCE_FEE});
        BEAST_EXPECT(env.current()->fees().reserve == XRPAmount{200'000'000});
        BEAST_EXPECT(env.current()->fees().increment == XRPAmount{50'000'000});

        auto feeVote = make_FeeVote(setup, env.app().journal("FeeVote"));
        auto ledger = std::make_shared<Ledger>(
            create_genesis,
            env.app().config(),
            std::vector<uint256>{},
            env.app().getNodeFamily());

        // doVoting requires a flag ledger (every 256th ledger)
        // We need to create a ledger at sequence 256 to make it a flag ledger
        for (int i = 0; i < 256 - 1; ++i)
        {
            ledger = std::make_shared<Ledger>(
                *ledger, env.app().timeKeeper().closeTime());
        }
        BEAST_EXPECT(ledger->isFlagLedger());

        // Create some mock validations with fee votes
        std::vector<std::shared_ptr<STValidation>> validations;

        for (int i = 0; i < 5; i++)
        {
            auto sec = randomSecretKey();
            auto pub = derivePublicKey(KeyType::secp256k1, sec);

            auto val = std::make_shared<STValidation>(
                env.app().timeKeeper().now(),
                pub,
                sec,
                calcNodeID(pub),
                [&](STValidation& v) {
                    v.setFieldU32(sfLedgerSequence, ledger->seq());
                    // Vote for different fees than current
                    v.setFieldAmount(
                        sfBaseFeeDrops, XRPAmount{setup.reference_fee});
                    v.setFieldAmount(
                        sfReserveBaseDrops, XRPAmount{setup.account_reserve});
                    v.setFieldAmount(
                        sfReserveIncrementDrops,
                        XRPAmount{setup.owner_reserve});
                });
            if (i % 2)
                val->setTrusted();
            validations.push_back(val);
        }

        auto txSet = std::make_shared<SHAMap>(
            SHAMapType::TRANSACTION, env.app().getNodeFamily());

        // This should not throw since we have a flag ledger
        feeVote->doVoting(ledger, validations, txSet);

        auto const txs = getTxs(txSet);
        BEAST_EXPECT(txs.size() == 1);
        auto const& feeTx = txs[0];

        BEAST_EXPECT(feeTx.getTxnType() == ttFEE);

        BEAST_EXPECT(feeTx.getAccountID(sfAccount) == AccountID());
        BEAST_EXPECT(feeTx.getFieldU32(sfLedgerSequence) == ledger->seq() + 1);

        BEAST_EXPECT(feeTx.isFieldPresent(sfBaseFeeDrops));
        BEAST_EXPECT(feeTx.isFieldPresent(sfReserveBaseDrops));
        BEAST_EXPECT(feeTx.isFieldPresent(sfReserveIncrementDrops));

        // The legacy fields should NOT be present
        BEAST_EXPECT(!feeTx.isFieldPresent(sfBaseFee));
        BEAST_EXPECT(!feeTx.isFieldPresent(sfReserveBase));
        BEAST_EXPECT(!feeTx.isFieldPresent(sfReserveIncrement));
        BEAST_EXPECT(!feeTx.isFieldPresent(sfReferenceFeeUnits));

        // Check the values
        BEAST_EXPECT(
            feeTx.getFieldAmount(sfBaseFeeDrops) ==
            XRPAmount{setup.reference_fee});
        BEAST_EXPECT(
            feeTx.getFieldAmount(sfReserveBaseDrops) ==
            XRPAmount{setup.account_reserve});
        BEAST_EXPECT(
            feeTx.getFieldAmount(sfReserveIncrementDrops) ==
            XRPAmount{setup.owner_reserve});
    }

    void
    run() override
    {
        testSetup();
        testBasic();
        testTransactionValidation();
        testPseudoTransactionProperties();
        testMultipleFeeUpdates();
        testWrongLedgerSequence();
        testPartialFieldUpdates();
        testSingleInvalidTransaction();
        testDoValidation();
        testDoVoting();
    }
};

BEAST_DEFINE_TESTSUITE(FeeVote, app, ripple);

}  // namespace test
}  // namespace ripple
